TERIDIAN 73K224L

73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
Simplifying System Integration™
DATA SHEET
JUNE 2008
DESCRIPTION
FEATURES
•
The 73K224L is a highly integrated single-chip
modem IC which provides the functions needed to
construct a V.22bis compatible modem, capable of
2400 bit/s full-duplex operation over dial-up lines. The
73K224L offers excellent performance and a high
level of functional integration in a single 28-pin DIP
package. This device supports V.22bis, V.22, V.21,
Bell 212A and Bell 103 modes of operation, allowing
both synchronous and asynchronous communication.
The 73K224L is designed to appear to the systems
designer as a microprocessor peripheral, and will
easily
interface
with
popular
single-chip
microprocessors (80C51 typical) for control of modem
functions through its 8-bit multiplexed address/data
bus or via an optional serial control bus. An ALE
control line simplifies address demultiplexing. Data
communications normally occur through a separate
serial port. The 73K224L is pin and software
compatible with the 73K212L and 73K222L singlechip modem ICs, allowing system upgrades with a
single component change.
•
•
•
•
•
•
•
•
•
The 73K224L operates from a single +5V supply for
low power consumption.
•
•
The 73K224L is ideal for use in either free-standing or
integral system modem products where full-duplex
•
(continued)
•
One-chip multi-mode V.22bis/V.22/V.21 and Bell
212A/103 compatible modem data pump
FSK (300 bit/s), DPSK (600, 1200 bit/s), or QAM
(2400 bit/s) encoding
Pin and software compatible with other TERIDIAN
Semiconductor
Corporation
K-Series 1-chip
modems
Interfaces directly with standard microcontrollers
(80C51 typical)
Parallel microcontroller bus for modem control and
status monitoring functions
Selectable
asynch/synch
with
internal
buffer/debuffer
and
scrambler/descrambler
functions
All synchronous and asynchronous operating
modes (internal, external, slave)
Adaptive equalization for optimum performance
over all lines
Programmable transmit attenuation (16 dB, 1 dB
steps), selectable receive boost (+18 dB)
Call progress, carrier, answer tone, unscrambled
mark, S1, and signal quality monitors
DTMF, answer and guard tone generators
Test modes available: ALB, DL, RDL, Mark, Space,
Alternating bit, S1 pattern
CMOS technology for low power consumption
(typically 100 mW @ 5V) with power-down mode
(15 mW @ 5V)
TTL and CMOS compatible inputs and outputs
BLOCK DIAGRAM
DTMF,
ANSWER,
GUARD &
CALLING
TONE
GENERATOR
FSK
MODULATOR
8-BIT
P
BUS
BUFFER
SCRAMBLER
DIBIT/
QUADBIT
ENCODER
TXA
FIR
PULSE
SHAPER
QAM/
DPSK
MODULATOR
+
EQUALIZER
+
FILTER
FILTER
ATTEN
I/F
FILTER
DEBUFFER
DESCRAMBLER
DIBIT/
QUADBIT
DECODER
DIGITAL
SIGNAL
PROCESSOR
RECEIVE
FUNCTIONS
A/D
FIXED
DEMOD
TXD
RXA
EQUALIZER
FILTER
FILTER
AGC
GAIN BOOST
SERIAL
I/F
RXD
TONE DETECTION
Page: 1 of 31
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
DESCRIPTION (continued)
2400 bit/s data communications over the 2-wire
switched telephone network is desired. Its high
functionality, low power consumption, and efficient
packaging simplify design requirements and increase
system reliability.
The 73K224L is designed to be a complete V.22bis
compatible modem on a chip. The complete modem
requires only the addition of the phone line interface, a
microcontroller for modem control and status
monitoring, and RS-232 level converters for a typical
system. Many functions were included to simplify
implementation of typical modem designs. In addition
to the basic 2400 bit/s QAM, 600/1200 bit/s DPSK and
300 bit/s FSK modulator/demodulator sections, the
device also includes SYNCH/ASYNCH converters,
scrambler/descrambler, call progress tone detect,
DTMF tone generator capabilities and handshake
pattern detectors. V.22bis, V.22, V.21 and Bell
212A/103 modes are supported (synchronous and
asynchronous) and test modes are provided for
diagnostics. Most functions are selectable as options
and logical defaults are provided.
stream. The demodulator also recovers the clock,
which was encoded into the analog signal during
modulation. Demodulation occurs using either a
1200 Hz carrier (answer mode or ALB originate
mode) or a 2400 Hz carrier (originate mode or
ALB answer mode). Adaptive equalization is also
used in DPSK modes for optimum operation with
varying line conditions.
FSK MODULATOR/DEMODULATOR
The FSK modulator produces a frequency
modulated analog output signal using two discrete
frequencies to represent the binary data. The Bell
103 standard frequencies of 1270 and 1070 Hz
(originate mark and space) and 2225 and 2025 Hz
(answer mark and space) are used when this
mode is selected. V.21 mode uses 980 and 1180
Hz (originate, mark and space) or 1650 and 1850
Hz (answer, mark and space). Demodulation
involves detecting the received frequencies and
decoding them into the appropriate binary value.
The rate converter and scrambler/descrambler are
automatically bypassed in the FSK modes.
PASSBAND FILTERS AND EQUALIZERS
OPERATION
QAM MODULATOR/DEMODULATOR
The 73K224L encodes incoming data into quad-bits
represented by 16 possible signal points with specific
phase and amplitude levels. The baseband signal is
then filtered to reduce intersymbol interference on the
bandlimited telephone network. The modulator
transmits this encoded data using either a 1200 Hz
(originate mode) or 2400 Hz (answer mode) carrier.
The demodulator, although more complex, essentially
reverses this procedure while also recovering the data
clock from the incoming signal. Adaptive equalization
corrects for varying line conditions by automatically
changing filter parameters to compensate for line
characteristics.
DPSK MODULATOR/DEMODULATOR
The 73K224L modulates a serial bit stream into di-bit
pairs that are represented by four possible phase
shifts as prescribed by the Bell 212A/V.22 standards.
The base-band signal is then filtered to reduce
intersymbol interference on the bandlimited 2-wire
PSTN line. Transmission occurs on either a 1200 Hz
(originate mode) or 2400 Hz carrier (answer mode).
Demodulation is the reverse of the modulation
process, with the incoming analog signal eventually
decoded into di-bits and converted back to a serial bit
Page: 2 of 31
High and low band filters are included to shape the
amplitude and phase response of the transmit and
receive signals and provide compromise delay
equalization and rejection of out-of-band signals.
Amplitude and phase equalization are necessary
to compensate for distortion of the transmission
line and to reduce intersymbol interference in the
bandlimited receive signal. The transmit signal
filtering corresponds to a 75% square root of
raised Cosine frequency response characteristic.
ASYNCHRONOUS MODE
The
Asynchronous
mode
is
used
for
communication with asynchronous terminals which
may communicate at 600,1200, or 2400 bit/s +1%,
-2.5% even though the modem’s output is limited
to the nominal bit rate ±.01% in DPSK and QAM
modes. When transmitting in this mode the serial
data on the TXD input is passed through a rate
converter which inserts or deletes stop bits in the
serial bit stream in order to output a signal that is
the nominal bit rate ±.01%. This signal is then
routed to a data scrambler and into the analog
modulator where quad-bit/di-bit encoding results in
the output signal. Both the rate converter and
scrambler can be bypassed for handshaking, and
synchronous operation as selected. Received data
is processed in a similar fashion except that the
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
rate converter now acts to reinsert any deleted stop
bits and output data to the terminal at no greater than
the bit rate plus 1%. An incoming break signal (low
through two characters) will be passed through without
incorrectly inserting a stop bit.
The SYNC/ASYNC converter also has an extended
Overspeed mode, which allows selection of an output
overspeed range of either +1% or +2.3%. In the
extended Overspeed mode, stop bits are output at 7/8
the normal width.
Both the SYNC/ASYNC rate converter and the data
descrambler are automatically bypassed in the FSK
modes.
SYNCHRONOUS MODE
Synchronous operation is possible only in the QAM or
DPSK modes. Operation is similar to that of the
Asynchronous mode except that data must be
synchronized to a provided clock and no variation in
data transfer rate is allowable. Serial input data
appearing at TXD must be valid on the rising edge of
TXCLK.
TXCLK is an internally derived 1200 or 2400 Hz signal
in Internal mode and is connected internally to the
RXCLK pin in Slave mode. Receive data at the RXD
pin is clocked out on the falling edge of RXCLK. The
asynch/synch
converter
is
bypassed
when
Synchronous mode is selected and data is transmitted
at the same rate as it is input.
Page: 3 of 31
PARALLEL BUS INTERFACE
Eight 8-bit registers are provided for control, option
select, and status monitoring. These registers are
addressed with the AD0, AD1, and AD2
multiplexed address lines (latched by ALE) and
appear to a control microprocessor as seven
consecutive memory locations. Six control
registers are read/write memory. The detect and
ID registers are read only and cannot be modified
except by modem response to monitored
parameters.
SERIAL CONTROL MODE
The serial Command mode allows access to the
73K224 control and status registers via a serial
control port. In this mode the AD0, AD1, and AD2
lines provide register addresses for data passed
through AD7 (DATA) pin under control of the RD
and WR lines. A read operation is initiated when
the RD line is taken low. The next eight cycles of
EXCLK will then transfer out eight bits of the
selected address location LSB first. A write takes
place by shifting in eight bits of data LSB first for
eight consecutive cycles of EXCLK. WR is then
pulsed low and data transfer into the selected
register occurs on the rising edge of WR.
DTMF GENERATOR
The DTMF generator controls the sending of the
sixteen standard DTMF tone pairs. The tone pair
sent is determined by selecting TRANSMIT DTMF
(bit D4) and the 4 DTMF bits (D0-D3) of the TONE
register. Transmission of DTMF tones from TXA is
gated by the TRANSMIT ENABLE bit of CR0 (bit
D1) as with all other analog signals.
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
PIN DESCRIPTION
POWER
NAME
TYPE
DESCRIPTION
GND
I
System Ground.
VDD
I
Power supply input, 5V -5% +10%. Bypass with 0.22 µF and 22 µF capacitors to
GND.
VREF
O
An internally generated reference voltage. Bypass with 0.22 µF capacitor to
GND.
ISET
I
Chip current reference. Sets bias current for op-amps. The chip current is set by
connecting this pin to VDD through a 2 MΩ resistor. Iset should be bypassed to
GND with a 0.22 µF capacitor.
PARALLEL MICROPROCESSOR INTERFACE
ALE
AD0- AD7
I
Address latch enable. The falling edge of ALE latches the address on AD0-AD2
and the chip select on CS.
I/O
Address/data bus. These bidirectional tri-state multiplexed lines carry information to and from the internal registers.
/Tristate
CS
I
Chip select. A low on this pin allows a read cycle or a write cycle to occur. AD0AD7 will not be driven and no registers will be written if CS (latched) is not active.
CS is latched on the falling edge of ALE.
CLK
O
Output clock. This pin is selectable under processor control to be either the
crystal frequency (for use as a processor clock) or 16 x the data rate for use as a
baud rate clock in QAM/DPSK modes only. The pin defaults to the crystal
frequency on reset.
INT
O
Interrupt. This open drain /weak pull-up, output signal is used to inform the
processor that a detect flag has occurred. The processor must then read the
detect register to determine which detect triggered the interrupt. INT will stay
active until the processor reads the detect register or does a full reset.
RD
I
Read. A low requests a read of the 73K224L internal registers. Data cannot be
output unless both RD and the latched CS are active or low.
RESET
I
Reset. An active high signal on this pin will put the chip into an inactive state. All
control register bits (CR0, CR1, CR2, CR3, Tone) will be reset. The output of the
CLK pin will be set to the crystal frequency. An internal pull down resistor permits
power on reset using a capacitor to VDD.
WR
I
Write. A low on this informs the 73K224L that data is available on AD0-AD7 for
writing into an internal register. Data is latched on the rising edge of WR. No data
is written unless both WR and the latched CS are active (low).
NOTE: The serial control mode is provided by tying ALE high and CS low. In this configuration AD7 becomes
DATA and AD0, AD1 and AD2 become the address only.
Page: 4 of 31
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
DTE USER INTERFACE
NAME
TYPE
EXCLK
I
External Clock. This signal is used in synchronous transmission when the
external timing option has been selected. In the external timing mode the rising
edge of EXCLK is used to strobe synchronous transmit data available on the
TXD pin. Also used for serial control interface.
RXCLK
O/
Tristate
Receive Clock. Tri stateable. The falling edge of this clock output is coincident
with the transitions in the serial received data output. The rising edge of RXCLK
can be used to latch QAM or DPSK valid output data. RXCLK will be active as
long as a carrier is present.
RXD
O/
Weak
Pull-up
Received Digital Data Output. Serial receive data is available on this pin. The
data is always valid on the rising edge of RXCLK when in synchronous mode.
RXD will output constant marks if no carrier is detected.
TXCLK
O/
Tristate
Transmit Clock. Tri stateable. This signal is used in synchronous transmission to
latch serial input data on the TXD pin. Data must be provided so that valid data is
available on the rising edge of the TXCLK. The transmit clock is derived from
different sources depending upon the synchronization mode selection. In Internal
Mode the clock is generated internally. In External Mode TXCLK is phase locked
to the EXCLK pin. In Slave Mode TXCLK is phase locked to the RXCLK pin.
TXCLK is always active.
I
Transmit Digital Data Input. Serial data for transmission is input on this pin. In
synchronous modes, the data must be valid on the rising edge of the TXCLK
clock. In asynchronous modes (2400/1200/600 bit/s or 300 baud) no clocking is
necessary. DPSK data must be +1%, -2.5% or +2.3%, -2.5 % in extended
overspeed mode.
TXD
DESCRIPTION
ANALOG INTERFACE AND OSCILLATOR
RXA
I
Received modulated analog signal input from the phone line.
TXA
O
Transmit analog output to the phone line.
XTL1
I
XTL2
I/O
These pins are for the internal crystal oscillator requiring a 11.0592 MHz parallel
mode crystal. Two capacitors from these pins to ground are also required for
proper crystal operation. Consult crystal manufacturer for proper values. XTL2
can also be driven from an external clock.
Page: 5 of 31
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
which provides an indication of monitored modem
status conditions. TR, the tone control register,
controls the DTMF generator, answer and guard
tones and RXD output gate used in the modem
initial connect sequence. CR2 is the primary DSP
control interface and CR3 controls transmit
attenuation and receive gain adjustments. All
registers are read/write except for DR and ID,
which are read only. Register control and status
bits are identified below:
REGISTER DESCRIPTIONS
Eight 8-bit internal registers are accessible for control
and status monitoring. The registers are accessed in
read or write operations by addressing the A0, A1 and
A2 address lines in serial mode, or the AD0, AD1 and
AD2 lines in parallel mode. The address lines are
latched by ALE. Register CR0 controls the method by
which data is transferred over the phone line. CR1
controls the interface between the microprocessor and
the 73K224L internal state. DR is a detect register
REGISTER BIT SUMMARY
DATA BIT NUMBER
ADDRESS
REGISTER
AD - A0
D7
D6
D5
D4
D3
D2
D1
D0
CONTROL
REGISTER
0
CR0
000
MODULATION
OPTION
MODULATION
TYPE
1
MODULATON
TYPE
0
TRANSMIT
MODE
2
TRANSMIT
MODE
1
TRANSMIT
MODE
0
TRANSMIT
ENABLE
ANSWER/
ORIGINATE
CONTROL
REGISTER
1
CR1
001
TRANSMIT
PATTERN
1
TRANSMIT
PATTERN
0
ENABLE
DETECT
INTERRUPT
BYPASS
SCRAMBLER
CLK
CONTROL
RESET
TEST
MODE
1
TEST
MODE
0
DETECT
REGISTER
DR
010
RECEIVE
LEVEL
PATTERN
S1 DET
RECEIVE
DATA
UNSCR.
MARK
DETECT
CARRIER
DETECT
SPECIAL
TONE
DETECT
CALL
PROGRESS
DETECT
SIGNAL
QUALITY
TONE
CONTROL
REGISTER
TR
011
RXD
OUTPUT
CONTOL
TRANSMIT
GUARD
TONE
TRANSMIT
ANSWER
TONE
TRANSMIT
DTMF
DTMF3
DTMF2/
4W/FDX
DTMF1/
EXTENDED
OVERSPEED
DTMF0/
GUARD/
ANSWER
CONTROL
REGISTER
2
CR2
100
0
SPECIAL
REGISTER
ACCESS
CALL
INITIALIZE
TRANSMIT
S1
16 WAY
RESET
DSP
TRAIN
INHIBIT
EQUALIZER
ENABLE
CONTROL
REGISTER
3
CR3
101
TXDALT
TRISTATE
TX/RXCLK
0
RECEIVE
GAIN
BOOST
TRANSMIT
ATTEN.
3
TRANSMIT
ATTEN.
2
TRANSMIT
ATTEN.
1
TRANSMIT
ATTEN.
0
SPECIAL
REGISTER
SR
101
0
TX BAUD
CLOCK
RX UNSCR.
DATA
0
TXD
SOURCE
SQ
SELECT 1
SQ
SELECT 0
0
ID
REGISTER
ID
110
ID
ID
ID
ID
X
X
X
1
NOTE: When a register containing reserved control
bits is written into, the reserved bits must be
programmed as 0's.
X = Undefined, mask in software
Page: 6 of 31
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
REGISTER ADDRESS TABLE
ADDRESS
REGISTER
CONTROL
REGISTER
0
AD2 - AD0
CR0
000
DATA BIT NUMBER
D7
D6
D5
MODULATION
OPTION
MODULATION
TYPE
1
MODULATION
TYPE
0
QAM: 0=2400 BIT/S
DPSK: 0=1200 BIT/S
1=600 BIT/S
FSK: 0=103 MODE
1=V.21
CONTROL
REGISTER
1
CR1
001
TRANSMIT
PATTERN
1
00=TX DATA
01=TX ALTERNATE
10=TX MARK
11=TX SPACE
DETECT
REGISTER
DR
010
RECEIVE
LEVEL
INDICATOR
S1 PATTERN
DETECT
TRANSMIT
MODE
2
ENABLE
DETECT
INTERRUPT
0=DISABLE
1=ENABLE
RECEIVE
DATA
BYPASS
SCRAMBLER
TR
011
RXD
OUTPUT
CONTROL
RXD PIN
0=NORMAL
1=OPEN
CONTROL
REGISTER
2
CR2
100
0
TRANSMIT
GUARD
TONE
CONTROL
REGISTER
3
CR3
101
TXDALT
ALTERNATE
TRANSMIT
DATA
SOURCE
SPECIAL
REGISTER
SR
101
0
0=OFF
1=ON
SPECIAL
REGISTER
ACCESS
CALL
INITIALIZE
TRISTATE
TX/RXCLK
UNSCR.
MARKS
DETECT
TX BAUD
CLOCK
10
110
00XX=73K212AL, 322L, 321L
01XX=73K221AL, 302L
10XX=73K222AL, 222BL
1100=73K224L
1110=73K324L
1100=73K224BL
1110=73K324BL
Page: 7 of 31
ID
ID
TRANSMIT
MODE
1
D1
TRANSMIT
MODE
0
TRANSMIT
ENABLE
0
CLK
CONTROL
TRANSMIT
DTMF
0=DATA
1=TX DTMF
TRANSMIT
S1
RECEIVE
GAIN
BOOST
0
OUTPUTS
UNSCR.
DATA
ID
TEST
MODE
0
00=NORMAL
01=ANALOG LOOPBACK
10=REMOTE DIGITAL
LOOPBACK
11=LOCAL DIGITAL
LOOPBACK
ANSWER
TONE
DETECT
CP
TONE
DETECT
4 BIT CODE FOR 1 OF 16
DUAL TONE COMBINATIONS
0=RX=TX
1=RX=16 WAY
TRAIN
INHIBIT
0=DSP
INACTIVE
1=DSP
ACTIVE
0=ADAPT EQ
ACTIVE
1=ADAPT EQ
FROZEN
TRANSMIT
ATTEN.
3
TRANSMIT
ATTEN.
1
EQUALIZER
ENABLE
0=ADAPT EQ
IN INIT
1=ADAPT EQ
OK TO ADAPT
TRANSMIT
ATTEN.
0
0000-1111, SETS
TRANSMIT ATTENUATOR
16 dB RANGE
DEFAULT=0100 ³ -10 dbM0
TXD
SOURCE
0=TXD PIN
1=TXALT BIT
ID
TRANSMIT
ATTEN.
2
DTMF0/
GUARD/
ANSWER/
CALLING/SCT
0=1800 Hz G.T.
2225 Hz ANS TONE
GENERATED
1= 550 Hz G.T.
2100 Hz ANS TONE
GENERATED &
DETECTED (V.21, V.22)
RESET
DSP
16 WAY
SIGNAL
QUALITY
INDICATOR
0=GOOD
1=BAD
DTMF1/
EXTENDED
OVERSPEED
DTMF2/
4 W/FDX
0=NO BOOST
1=18 dB BOOST
RX UNSCR.
DATA
TEST
MODE
1
0=NORMAL
1=RESET
DTMF3
ANSWER/
ORIGINATE
0=ANSWER
1=ORIGINATE
RESET
CARRIER
DETECT
D0
0=DISABLE
TXA OUTPUT
1=ENABLE
TXA OUTPUT
0=CONDITION NOT DETECTED
1=CONDITION DETECTED
0=NORMAL
0=DSP IN
DOTTING
DEMOD MODE
1=S1
1=DSP IN CALL
PROGRESS
MODE
0=NORMAL
1=TRISTATE
OUTPUTS
TXBAUD
CLOCK
ID
REGISTER
TRANSMIT
ANSWER
TONE
0=OFF
1=ON
0=ACCESS CR3
1=ACCESS
SPECIAL
REGISTER
D2
0=NORMAL
0=XTAL
1=BYPASS
1=16 X DATA
SCRAMBLER RATE OUTPUT
AT CLK PIN IN
QAM/DPSK
MODE ONLY
0=SIGNAL
0=NOT PRESENT OUTPUTS
BELOW
RECEIVED
1=PATTERN
THRESHOLD
DATA STREAM
FOUND
1=ABOVE
THRESHOLD
TONE
CONTROL
REGISTER
D3
0000=PWR DOWN
0001=INT SYNCH
0010=EXT SYNCH
0011=SLAVE SYNCH
0100=ASYCH 8 BITS/CHAR
0101=ASYCH 9 BITS/CHAR
0110=ASYCH 10 BITS/CHAR
0111=ASYCH 11 BITS/CHAR
1X00=FSK
10=QAM
00=DPSK
01=FSK
TRANSMIT
PATTERN
0
D4
X
© 2005, 2008 TERIDIAN Semiconductor Corporation
SQ
SELECT1
00³10
01³10
10³10
11³10
X
SQ
SELECT0
-5
-6
-4
-3
0
BER
BER
BER
BER
X
X
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
CONTROL REGISTER 0
CR0
000
D7
D6
D5
D4
D3
D2
D1
D0
MODUL.
OPTION
MODUL.
TYPE 1
MODUL.
TYPE 0
TRANSMIT
MODE 2
TRANSMIT
MODE 1
TRANSMIT
MODE 0
TRANSMIT
ENABLE
ANSWER/
ORIGINATE
BIT NO.
D0
D1
NAME
CONDITION
Answer/
Originate
0
Selects answer mode (transmit in high band, receive in low
band).
1
Selects originate mode (transmit in low band, receive in
high band).
0
Disables transmit output at TXA.
1
Enables transmit output at TXA.
Transmit
Enable
DESCRIPTION
Note: Transmit Enable must be set to 1 to allow activation
of Answer Tone or DTMF.
D5 D4
D5, D4,
D3, D2
D6,D5
Page: 8 of 31
D3 D2
0
0
0
0
Selects power down mode. All functions disabled except
digital interface.
0
0
0
1
Internal synchronous mode. In this mode TXCLK is an
internally derived 600,1200 or 2400 Hz signal. Serial input
data appearing at TXD must be valid on the rising edge of
TXCLK. Receive data is clocked out of RXD on the falling
edge of RXCLK.
0
0
1
0
External synchronous mode. Operation is identical to
internal synchronous, but TXCLK is connected internally to
EXCLK pin, and a 600, 1200 or 2400 Hz clock must be
supplied externally.
0
0
1
1
Slave synchronous mode. Same operation as other
synchronous modes. TXCLK is connected internally to the
RXCLK pin in this mode.
0
1
0
0
Selects asynchronous mode - 8 bits/character (1 start bit, 6
data bits, 1 stop bit).
0
1
0
1
Selects asynchronous mode - 9 bits/character (1 start bit, 7
data bits, 1 stop bit).
0
1
1
0
Selects asynchronous mode - 10 bits/character (1 start bit,
8 data bits, 1 stop bit).
0
1
1
1
Selects asynchronous mode - 11 bits/character (1 start bit,
8 data bits, Parity and/or 1 or 2 stop bits).
1
X
0
0
Selects FSK operation.
D6
D5
1
0
QAM
0
0
DPSK
0
1
FSK
Transmit
Mode
Modulation
Type
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
CONTROL REGISTER 0 (continued)
CR0
000
D7
D6
D5
D4
D3
D2
D1
D0
MODUL.
OPTION
MODUL.
TYPE 1
MODUL.
TYPE 0
TRANSMIT
MODE 2
TRANSMIT
MODE 1
TRANSMIT
MODE 0
TRANSMIT
ENABLE
ANSWER/
ORIGINATE
BIT NO.
D7
NAME
CONDITION
DESCRIPTION
Modulation
Option
0
QAM selects 2400 bit/s. DPSK selects 1200 bit/s.
FSK selects 103 mode.
1
DPSK selects 600 bit/s.
FSK selects V.21 mode.
CONTROL REGISTER 1
CR1
001
D7
D6
D5
D4
D3
D2
D1
D0
TRANSMIT
PATTERN
1
TRANSMIT
PATTERN
0
ENABLE
DETECT
INT.
BYPASS
SCRAMB
CLK
CONTROL
RESET
TEST
MODE 1
TEST
MODE 0
BIT NO.
D1, D0
D2
D3
Page: 9 of 31
NAME
Test Mode
Reset
Clock Control
CONDITION
DESCRIPTION
D1
D0
0
0
Selects normal operating mode.
0
1
Analog loopback mode. Loops the transmitted analog
signal back to the receiver, and causes the receiver to use
the same carrier frequency as the transmitter. To squelch
the TXA pin, TRANSMIT ENABLE bit as well as Tone Reg
bit D2 must be low.
1
0
Selects remote digital loopback. Received data is looped
back to transmit data internally, and RXD is forced to a
mark. Data on TXD is ignored.
1
1
Selects local digital loopback. Internally loops TXD back to
RXD and continues to transmit data carrier at TXA pin.
0
Selects normal operation.
1
Resets modem to power down state. All control register bits
(CR0, CR1, CR2, CR3 and Tone) are reset to zero except
CR3 bit D2. The output of the clock pin will be set to the
crystal frequency.
0
Selects 11.0592 MHz crystal echo output at CLK pin.
1
Selects 16 X the data rate, output at CLK pin in DPSK/QAM
modes only.
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
CONTROL REGISTER 1 (continued)
CR1
001
D7
D6
D5
D4
D3
D2
D1
D0
TRANSMIT
PATTERN
1
TRANSMIT
PATTERN
0
ENABLE
DETECT
INT.
BYPASS
SCRAMB
CLK
CONTROL
RESET
TEST
MODE
1
TEST
MODE
0
BIT NO.
D4
NAME
CONDITION
Bypass
Scrambler
0
Selects normal operation. DPSK and QAM data is passed through
scrambler.
1
Selects Scrambler Bypass. Bypass DPSK and QAM data is
routed around scrambler in the transmit path.
0
Disables interrupt at INT pin. All interrupts are normally
disabled in power down mode.
1
Enables INT output. An interrupt will be generated with a
change in status of DR bits D1-D4 and D6. The answer
tone and call progress detect interrupts are masked when
the TX enable bit is set. Carrier detect is masked when TX
DTMF is activated. All interrupts will be disabled if the
device is in power down mode.
Enable Detect
Interrupt
D5
D7, D6
Transmit
Pattern
DESCRIPTION
D7
D6
0
0
Selects normal data transmission as controlled by the state
of the TXD pin.
0
1
Selects an alternating mark/space transmit pattern for
modem testing and handshaking. Also used for S1 pattern
generation. See CR2 bit D4.
1
0
Selects a constant mark transmit pattern.
1
1
Selects a constant space transmit pattern.
DETECT REGISTER
DR
010
D7
D6
D5
D4
D3
D2
D1
D0
RECEIVE
LEVEL
INDICATOR
S1
PATTERN
DETECT
RECEIVE
DATA
UNSCR
MARK.
DETECT
CARR.
DETECT
ANSWER
TONE
DETECT
CALL
PROG.
DETECT
SIGNAL
QUALITY
INDICATOR
BIT NO.
D0
D1
Page: 10 of 31
NAME
CONDITION
Signal Quality
Indicator
0
Indicates normal received signal.
1
Indicates low received signal quality (above average error
rate). Interacts with special register bits D2, D1.
0
No call progress tone detected.
1
Indicates presence of call progress tones. The call progress
detection circuitry is activated by energy in the normal 350
to 620 Hz call progress bandwidth.
Call Progress
Detect
DESCRIPTION
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
DETECT REGISTER (continued)
DR
010
D7
D6
D5
D4
D3
D2
D1
D0
RECEIVE
LEVEL
INDICATOR
S1
PATTERN
DETECT
RECEIVE
DATA
UNSCR.
MARK
DETECT
CARR.
DETECT
ANSWER
TONE
DETECT
CALL
PROG.
SIGNAL
QUALITY
INDICATOR
BIT NO.
D2
D3
NAME
CONDITION
Answer Tone
Received
0
No answer tone detected.
1
In Call Init mode, indicates detection of 2225 Hz answer
tone in Bell mode (TR bit D0=0) or 2100 Hz if in CCITT
mode (TR bit D0=1). The device must be in originate mode
for detection of answer tone. Both answer tones are
detected in demod mode.
Carrier Detect
0
No carrier detected in the receive channel.
1
Indicated carrier has been detected in the received
channel.
0
No unscrambled mark.
1
Indicates detection of unscrambled marks in the received
data. Should be time qualified by software.
Unscrambled
Mark Detect
D4
D5
Receive Data
D6
S1 Pattern
Detect
Continuously outputs the received data stream. This data is
the same as that output on the RXD pin, but it is not
disabled when RXD is tri-stated.
Receive Level
Indicator
D7
DESCRIPTION
0
No S1 pattern being received.
1
S1 pattern detected. Should be time qualified by software.
S1 pattern is defined as a double di-bit (001100..)
unscrambled 1200 bit/s DPSK signal. Pattern must be
aligned with baud clock to be detected.
0
Received signal level below threshold, (typical ≈ -25 dBm0); can
use receive gain boost (+18 dB).
1
Received signal above threshold.
TONE REGISTER
TR
011
D7
D6
D5
D4
RXD
OUTPUT
CONTR.
TRANSMIT
GUARD
TONE
TRANSMIT
ANSWER
TONE
TRANSMIT
DTMF
BIT NO.
NAME
CONDITION
D6 D5
D0
Page: 11 of 31
DTMF 0/
Answer/ Guard
Tone
D3
DTMF 3
D2
D1
D0
DTMF 2
DTMF 1/
EXTENDED
OVER- SPEED
DTMF 0/
ANSWER/
GUARD
DESCRIPTION
D4 D0
D0 interacts with bits D6, D5, and D4 as shown.
X
X
1
X
Transmit DTMF tones.
X
1
0
0
Select Bell mode answer tone. Interacts with DR bit D2 and
TR bit D5.
X
1
0
1
Select CCITT mode answer tone. Interacts with DR bit D2
and TR bit D5.
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
TONE REGISTER (continued)
TR
011
D7
D6
D5
D4
D3
D2
D1
D0
RXD
OUTPUT
CONTR.
TRANSMIT
GUARD
TONE
TRANSMIT
ANSWER
TONE
TRANSMIT
DTMF
DTMF 3
DTMF 2/4
WIRE FDX
DTMF 1/
EXTENDED
OVER- SPEED
DTMF 0/
ANSWER/
GUARD
BIT NO.
NAME
CONDITION
D6 D5
D0
D1
D2
Page: 12 of 31
DTMF 0/
Answer/ Guard
Tone
DTMF 1/
Extended
Overspeed
DTMF 2/4
WIRE FDX
DESCRIPTION
D4 D0
D0 interacts with bits D6, D5, and D4 as shown.
1
0
0
0
Select 1800 Hz guard tone.
1
0
0
1
Select 550 Hz guard tone.
D4
D1
0
0
Asynchronous QAM or DPSK +1.0% -2.5%. (normal)
0
1
Asynchronous QAM or DPSK +2.3% -2.5%. (extended
overspeed)
D4
D2
0
0
Selects 2 wire duplex or half duplex
0
1
D2 selects 4 wire full duplex in the modulation mode
selected. The receive path corresponds to the ANS/ORIG
bit CR0 D0 in terms of high or low band selection. The
transmitter is in the same band as the receiver, but does
not have magnitude filtering or equalization on its signal as
in the receive path.
D1 interacts with D4 as shown.
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
TONE REGISTER (continued)
TR
011
D7
D6
D5
D4
D3
D2
D1
D0
RXD
OUTPUT
CONTR.
TRANSMIT
GUARD
TONE
TRANSMIT
ANSWER
TONE
TRANSMIT
DTMF
DTMF 3
DTMF 2/4
WIRE FDX
DTMF 1/
EXTENDED
OVER- SPEED
DTMF 0/
ANSWER
GUARD
BIT NO.
NAME
CONDITION
D3, D2,
D1, D0
DTMF 3,
2, 1, 0
D4 = 1
DESCRIPTION
Programs 1 of 16 DTMF tone pairs that will be transmitted
when TX DTMF and TX enable bit (CR0, bit D1) is set.
Tone encoding is shown below:
KEYBOARD
EQUIVALENT
D4
TX DTMF
(Transmit
DTMF)
DTMF CODE
D3 D2 D1 D0
TONES
LOW
HIGH
1
0
0
0
1
697
1209
2
0
0
1
0
697
1336
3
0
0
1
1
697
1477
4
0
1
0
0
770
1209
5
0
1
0
1
770
1336
6
0
1
1
0
770
1477
7
0
1
1
1
852
1209
8
1
0
0
0
852
1336
9
1
0
0
1
852
1477
0
1
0
1
0
941
1336
*
1
0
1
1
941
1209
#
1
1
0
0
941
1477
A
1
1
0
1
697
1633
B
1
1
1
0
770
1633
C
1
1
1
1
852
1633
D
0
0
0
0
941
1633
0
Disable DTMF.
1
Activate DTMF. The selected DTMF tones are transmitted
continuously when this bit is high. TX DTMF overrides all
other transmit functions.
Note: DTMF0 - DTMF2 should be set to an appropriate state after DTMF dialing to avoid unintended operation.
Page: 13 of 31
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
TONE REGISTER (continued)
TR
011
D7
D6
D5
D4
D3
D2
D1
D0
RXD
OUTPUT
CONTR.
TRANSMIT
GUARD
TONE
TRANSMIT
ANSWER
TONE
TRANSMIT
DTMF
DTMF 3
DTMF 2/4
WIRE FDX
DTMF 1/
EXTENDED
OVER- SPEED
DTMF 0/
ANSWER/
GUARD
BIT NO.
NAME
D5
CONDITION
DESCRIPTION
D5 interacts with bits D4 and D0 as shown. Also interacts
with DR bit D2 in originate mode. See Detect Register
description.
D5
D4
D0
0
0
X
Disables answer tone generator.
1
0
0
In answer mode, a Bell 2225 Hz tone is transmitted
continuously when the Transmit Enable bit is set.
1
0
1
Likewise, a CCITT 2100 Hz answer tone is transmitted.
Transmit
Answer Tone
D6
D7
Transmit
Guard Tone
0
Disables guard tone generator.
1
Enables guard tone generator. (See D0 for selection of
guard tones.) Bit D4 must be zero.
RXD Output
Control
0
Enables RXD pin. Receive data will be output on RXD.
1
Disables RXD pin. The RXD pin reverts to a high
impedance with internal weak pull-up resistor.
CONTROL REGISTER 2
CR2
100
D7
D6
D5
D4
D3
D2
D1
D0
0
SPEC REG
ACCESS
CALL INIT
TRANSMIT
S1
16 WAY
RESET
DSP
TRAIN
INHIBIT
EQUALIZER
ENABLE
BIT NO.
D0
D1
D2
D3
Page: 14 of 31
NAME
CONDITION
Equalizer
Enable
0
The adaptive equalizer is in its initialized state.
1
The adaptive equalizer is enabled. This bit is used in
handshakes to control when the equalizer should calculate
its coefficients.
Train Inhibit
0
The adaptive equalizer is active.
1
The adaptive equalizer coefficients are frozen.
0
The DSP is inactive and all variables are initialized.
1
The DSP is running based on the mode set by other control
bits
0
The receiver and transmitter are using the same decision
plane (based on the Modulator Control Mode).
1
The receiver, independent of the transmitter, is forced into a
16 point decision plane. Used for QAM handshaking.
RESET DSP
16 Way
DESCRIPTION
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
CONTROL REGISTER 2 (continued)
CR2
100
D7
D6
D5
D4
D3
D2
D1
D0
0
SPEC REG
ACCESS
CALL INIT
TRANSMIT
S1
16WAY
RESET
DSP
TRAIN
INHIBIT
EQUALIZER
ENABLE
BIT NO.
D4
NAME
Transmit S1
CONDITION
0
1
D5
Call Init
0
1
D6
Special
Register
Access
0
1
D7
Not used at this time
0
DESCRIPTION
The transmitter when placed in alternating mark/space
mode transmits 0101...... scrambled or not dependent on
the bypass scrambler bit.
When this bit is 1 and only when the transmitter is placed in
alternating mark/space mode by CR1 bits D7, D6, and in
DPSK or QAM, an unscrambled repetitive double dibit
pattern of 00 and 11 at 1200 bit/s (S1) is sent.
DEMOD mode: The DSP is setup to do demodulation and
pattern detection based on the various mode bits. Both
answer tones are detected in demod mode concurrently (wide
band detection); TR-D0 is ignored.
CALL INIT mode: The DSP decodes unscrambled mark,
answer tone and call progress tones.
Normal CR3 access.
Setting this bit and addressing CR3 allows access to the
SPECIAL REGISTER. See the SPECIAL REGISTER for
details.
Only write zero to this bit.
CONTROL REGISTER 3
CR3
101
D7
TXDALT
D6
TRISTATE
TX/RXCLK
BIT NO.
NAME
D3, D2,
D1,D0
Transmit
Attenuator
D4
Receive Gain
Boost
D5
0
D4
RECEIVE
BOOST
ENABLE
CONDITION
D3 D2
0 0
1 1
D1 D0
0
0
1
1
D6
D7
Page: 15 of 31
TRISTATE
TXCLK/RXCLK
TXDALT
D2
TRANSMIT
ATTEN. 2
D1
TRANSMIT
ATTEN. 1
D0
TRANSMIT
ATTEN. 0
DESCRIPTION
0
Sets the attenuation level of the transmitted signal in 1dB
steps. The default (D3-D0=0100) is for a transmit level of –
10 dBm0 on the line with the recommended hybrid transmit
gain. The total range is 16 dB.
18 dB receive front end boost is not used.
Boost is in the path. This boost does not change reference
levels. It is used to extend dynamic range by compensating
for internally generated noise when receiving weak signals.
The receive level detect signal and knowledge of the hybrid
and transmit attenuator setting will determine when boost
should be enabled.
Only write zero to this bit.
0
TXCLK and RXCLK are driven.
1
TXCLK and RXCLK are tri-stated.
0
1
Not used at this time
D5
D3
TRANSMIT
ATTEN. 3
Spec. Reg. Bit D3=1
Alternate TX data source. See Special Register.
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
SPECIAL REGISTER
SR
101
D7
D6
D5
D4
D3
D2
D1
D0
0
TXBAUD
CLOCK
RXUNDSCR
DATA
0
TXD
SOURCE
SIGNAL
QUALITY
LEVEL
SELECT1
SIGNAL
QUALITY
LEVEL
SELECT0
0
BIT NO.
NAME
DESCRIPTION
D7, D4, D0
NOT USED AT THIS TIME. Only write ZEROs to these bits.
D6
TXBAUD CLK
TXBAUD clock is the transmit baud-synchronous clock that can be used to
synchronize the input of arbitrary quad/di-bit patterns. The rising edge of
TXBAUD signals the latching of a baud-worth of data internally. Synchronous
data to be entered via the TXDALT bit, CR3 bit D7, should have data transitions
that start 1/2 bit period delayed from the TXBAUD clock edges.
D5
RXUNDSCR
DATA
This bit outputs the data received before going to the descrambler.
This is useful for sending special unscrambled patterns that can be used for
signaling.
D3
TXD SOURCE
This bit selects the transmit data source; either the TXD pin if ZERO or the
TXDALT if this bit is a ONE. The TRANSMIT PATTERN bits D7 and D6 in CR1
override either of these sources.
SIGNAL
QUALITY
LEVEL
SELECT
The signal quality indicator is a logical ZERO when the signal received is
acceptable for low error rate reception. It is determined by the value of the Mean
Squared Error (MSE) calculated in the decision process when compared to a
given threshold. This threshold can be set to four levels of error rate. The SQI bit
will be low for good or average connections. As the error rate crosses the
threshold setting, the SQI bit will toggle at a 1.66 ms rate. Toggling will continue
until the error rate indicates that the data pump has lost convergence and a
retrain is required. At that point the SQI bit will be a ONE constantly. The SQI bit
and threshold selection are valid for QAM and DPSK only and indicates typical
error rate.
D2
D1
THRESHOLD VALUE
0
0
0
D2, D1
UNITS
10
-5
BER (default)
1
10
-6
BER
1
0
10
-4
BER
1
1
10
-3
BER
NOTE: This register is "mapped" and is accessed by setting CR2 bit D6 to a ONE and addressing CR3. This
register provides functions to the 73K224L user that are not necessary in normal communications. Bits
D7-D4 are read only, while D3-D0 are read/write. To return to normal CR3 access, CR2 bit D6 must be
returned to a ZERO.
Page: 16 of 31
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
ID REGISTER
ID
110
D7
D6
D5
D4
D3
D2
D1
D0
ID
3
ID
2
ID
1
ID
0
X
X
X
1
BIT NO.
NAME
D7, D6,
D5, D4
Device
Identification
Signature
D3-D1
D0
Page: 17 of 31
CONDITION
D7 D6
DESCRIPTION
D5 D4
Indicates Device:
0
0
X
X
73K212AL, 73K321L or 73K322L
0
1
X
X
73K221AL or 73K302L
1
0
X
X
73K222AL, 73K222BL
1
1
0
0
73K224L
1
1
1
0
73K324L
1
1
0
0
73K224BL
1
1
1
0
73K324BL
Not Used
Undefined
Version
1
Mask in software
Indicates industrial temperature version
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
ELECTRICAL SPECIFICATIONS
ABSOLUTE MAXIMUM RATINGS
PARAMETER
RATING
VDD Supply Voltage
7V
Storage Temperature
-65 to 150°C
Soldering Temperature (10 sec.)
260°C
Applied Voltage
-0.3 to VDD+0.3V
Note: All inputs and outputs are protected from static charge using built-in, industry standard protection devices
and all outputs are short-circuit protected.
RECOMMENDED OPERATING CONDITIONS
PARAMETER
CONDITION
MIN
NOM
MAX
UNIT
4.5
5
5.5
V
VDD Supply voltage
External Components (Refer to Application section for placement.)
VREF Bypass capacitor
(VREF to GND)
Bias setting resistor
(Placed between VDD and ISET pins)
ISET Bypass capacitor
(ISET pin to GND)
0.22
µF
VDD Bypass capacitor 1
(VDD to GND)
0.22
µF
VDD Bypass capacitor 2
(VDD to GND)
22
µF
XTL1 Load Capacitance
Depends on crystal requirements
18
39
pF
XTL2 Load Capacitance
Depends on crystal requirements
18
27
pF
-0.01
+0.01
%
-40
85
°C
Clock Variation
(11.0592 MHz) Crystal or external clock
0.22
1.8
TA, Operating Free-Air
Temperature
Page: 18 of 31
© 2005, 2008 TERIDIAN Semiconductor Corporation
µF
2
2.2
MΩ
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
DC ELECTRICAL CHARACTERISTICS
(TA = -40°C to 85°C, VDD = recommended range unless otherwise noted.)
PARAMETER
CONDITION
IDD, Supply Current
CLK = 11.0592 MHz
ISET Resistor = 2 MΩ
IDD1, Active
IDD2, Idle
MIN
NOM
MAX
UNIT
18
25
mA
3
5
mA
0.8
V
2.0
VDD
V
3.0
VDD
V
100
µA
Operating with crystal oscillator,
< 5 pF capacitive load on CLK pin
Digital Inputs
VIL, Input Low Voltage
VIH, Input High Voltage
All Inputs except Reset
XTL1, XTL2
Reset, XTL1, XTL2
IIH, Input High Current
VI = VDD
IIL, Input Low Current
VI = 0V
Reset Pull-down Current
Reset = VDD
-200
µA
2
50
µA
2.4
VDD
V
0.4
V
-50
µA
Digital Outputs
VOH, Output High Voltage
IO = IOH Min
IOUT = -0.4 mA
VOL, Output Low Voltage
IO = IOUT = 1.6 mA
RXD Tri-State Pull-up
Current.
RXD = GND
-2
Capacitance
CLK
Maximum permitted load
25
pF
Input Capacitance
All digital inputs
10
pF
Page: 19 of 31
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
ELECTRICAL SPECIFICATIONS (continued)
DYNAMIC CHARACTERISTICS AND TIMING
(TA = -40°C to +85°C, VDD = recommended range unless otherwise noted.)
PARAMETER
CONDITION
MIN
NOM
MAX
UNIT
QAM/DPSK Modulator
Carrier Suppression
Measured at TXA
35
Output Amplitude
TX scrambled marks
ATT = 0100 (default)
-11.5
Output Freq. Error
CLK = 11.0592 MHz
-0.31
Transmit Level
ATT = 0100 (Default)
Transmit Dotting Pattern
-11.5
TXA Output Distortion
All products through BPF
Output Bias Distortion at
RXD
Dotting Pattern measured at RXD
Receive Level -20 dBm, SNR 20 dB
Output Jitter at RXD
Sum of Bias Distortion
and Output Jitter
dB
-10.0
-9
dBm0
+0.20
%
-9
dBm0
-45
dB
-10
+10
%
Integrated for 5 seconds
-15
+15
%
Integrated for 5 seconds
-17
+17
%
-9
dBm0
-40
dB
-0.03
+0.25
%
FSK Modulator/Demodulator
-10.0
Answer Tone Generator (2100 or 2225 Hz)
Output Amplitude
ATT = 0100 (Default Level)
Not in V.21
Output Distortion
Distortion products in receive band
DTMF Generator
-11.5
-10
Not in V.21
Freq. Accuracy
Output Amplitude
Low Band, ATT = 0100, DPSK Mode
-10
-8
dBm0
Output Amplitude
High Band, ATT = 0100, DPSK Mode
-8
-6
dBm0
Twist
High-Band to Low-Band, DPSK Mode
1.0
3.0
dB
Receiver Dynamic Range
Refer to Performance Curves
-43
-3.0
dBm0
Call Progress Detector
In Call Init mode
-34
0
dBm0
-40
dBm0
Detect Level
460 Hz test signal
2.0
Reject Level
Delay Time
-70 dBm0 to -30 dBm0 STEP
25
ms
Hold Time
-30 dBm0 to -70 dBm0 STEP
25
ms
NOTE: Parameters expressed in dBm0 refer to the following definition:
0 dB loss in the Transmit path from TXA to the line.
2 dB gain in the Receive path from the line to RXA.
Refer to the Basic Box Modem diagram in the Applications section for the DAA design.
Page: 20 of 31
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
DYNAMIC CHARACTERISTICS AND TIMING (continued)
PARAMETER
CONDITION
Carrier Detect
All Modes
Hysteresis
All Modes
FSK
DPSK
QAM
Hold Time
NOM
MAX
UNIT
-43
dBm0
Receive Gain = On for lower input level measurements
Threshold
Delay Time
MIN
FSK
DPSK
QAM
Answer Tone Detectors
25
37
ms
70 dBm0 to -40 dBm0
25
37
ms
-70 dBm0 to -6 dBm0
7
17
ms
-70 dBm0 to -40 dBm0
7
17
ms
-70 dBm0 to -6 dBm0
25
37
ms
-70 dBm0 to -40 dBm0
25
37
ms
-6 dBm0 to -70 dBm0
25
37
ms
-40 dBm0 to -70 dBm0
15
30
ms
-6 dBm0 to -70 dBm0
20
29
ms
-40 dBm0 to -70 dBm0
14
21
ms
-6 dBm0 to -70 dBm0
25
32
ms
-40 dBm0 to -70 dBm0
18
28
ms
-48
-43
dBm0
6
50
ms
6
50
ms
DPSK Mode
Call Init Mode, 2100 or 2225 Hz
Hold Time
Pattern Detectors
2
70 dBm0 to -6 dBm0
Detect Level
Detect Time
-48
DPSK Mode
S1 Pattern
Delay Time
Hold Time
For signals from -6 to -40 dBm0,
-6 to -40 dBm0, Demod Mode
10
55
ms
10
45
ms
10
45
ms
10
45
ms
Unscrambled Mark
Delay Time
Hold Time
For signals from -6 to –40
call Init Mode
Receive Level Indicator
Detect On
Valid after Carrier Detect
-22
DPSK Mode
1
-28
dBm0
4
7
ms
200
300
Ω
Output Smoothing Filter
Output Impedance
TXA pin
Output load
TXA pin; FSK Single
Maximum Transmitted
Energy
Page: 21 of 31
10
KΩ
Tone out for THD = -50 dB
in 0.3 to 3.4 kHz range
50
pF
4 kHz, Guard Tones off
-35
dBm0
10 kHz, Guard Tones off
-55
dBm0
12 kHz, Guard Tones off
-65
dBm0
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
DYNAMIC CHARACTERISTICS AND TIMING (continued)
PARAMETER
CONDITION
MIN
NOM
MAX
UNIT
Scrambled data at 2400 bit/s
in opposite band
-14
dBm
Sinusoids out of band
-9
dBm
-21
-6
dBm0
-0.15
+0.15
dB
300
Ω
1.5
mVrms
Anti Alias Low Pass Filter
Out of Band Signal Energy
(Defines Hybrid Trans- Hybrid
loss requirements)
Level at RXA pin with receive
Boost Enabled
Transmit Attenuator
Range of Transmit Level
Default ATT=0100 (-10 dBm0) 1111-0000
Step Accuracy
Output Impedance
200
Clock Noise
TXA pin; 153.6 kHz
Carrier Offset
Capture Range
Originate or Answer
±5
Hz
Recovered Clock
Capture Range
% of frequency (originate or
answer)
-0.02
+0.02
%
Guard Tone Generator
Tone Accuracy
Tone Level
(Below QAM/DPSK Output)
Harmonic Distortion
(700 to 2900 Hz)
Page: 22 of 31
550 Hz
+1.2
1800 Hz
-0.8
%
550 Hz
-4.5
-3.0
-1.5
dB
1800 Hz
-7.5
-6.1
-4.5
dB
550 Hz
-50
dB
1800 Hz
-50
dB
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
DYNAMIC CHARACTERISTICS AND TIMING (continued)
Timing (Refer to Timing Diagrams)
PARAMETER
CONDITION
MIN
NOM
MAX
UNIT
Parallel Mode
TAL
CS/Addr. setup before ALE Low
30
ns
TLA
CS/Addr. hold after ALE Low
6
ns
TLC
ALE Low to RD/WR Low
40
ns
TCL
RD/WR Control to ALE High
10
ns
TRD
Data out from RD Low
TLL
ALE width
TRDF
Data float after RD High
TRW
RD width
70
ns
TWW
WR width
70
ns
TDW
Data setup before WR High
70
ns
TWD
Data hold after WR High
20
ns
TRCK
Clock High after RD Low
250
TAR
Address setup before RD Low
TRA
Address hold after RD Low
TRD
RD to Data valid
300
ns
TRDF
Data float after RD High
40
ns
TCKDR
Read Data out after Falling Edge of
EXCLK
300
ns
TWW
WR width
350
ns
TAW
Address setup before WR Low
50
ns
TWA
Address hold after Rising Edge of
WR
50
ns
TCKDW
Write Data hold after Falling Edge
of EXCLK
200
ns
TCKW
WR High after Falling Edge of
EXCLK
330
TDCK
Data setup before Falling Edge of
EXCLK
50
ns
T1, T2
Minimum Period
500
ns
90
25
ns
ns
40
ns
Serial Mode
T1
ns
0
ns
350
ns
T1 +
T2
ns
NOTE: T1 and T2 are the low/high periods, respectively, of EXCLK in serial mode.
NOTE: Asserting ALE, CS, and RD or WR concurrently can cause unintentional register accesses. When using
non-8031 compatible processors, care must be taken to prevent this from occurring when designing the
interface logic.
Page: 23 of 31
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
TIMING DIAGRAMS
BUS TIMING DIAGRAM (PARALLEL CONTROL MODE)
TLL
ALE
TLC
TRW
TCL
RD
TLC
TWW
WR
TLA
TRD
TRDF
TWD
TAL
TDW
ADDRESS
AD0-AD7
READ DATA
ADDRESS
WRITE DATA
CS
READ TIMING DIAGRAM (SERIAL CONTROL MODE )
T1
T2
EXCLK
TRCLK
RD
TAR
TRA
A0-A2
ADDRESS
TRD
D0
DATA
TRDF
TCKDR
D1
D2
D3
D4
D5
D6
D7
WRITE TIMING DIAGRAM (SERIAL CONTROL MODE)
T2
EXCLK
T1
TWW
WR
TCKW
TAW
TWA
A0-A2
ADDRESS
TCKDW
TDCK
DATA
Page: 24 of 31
D0
D1
D2
D3
D4
D5
© 2005, 2008 TERIDIAN Semiconductor Corporation
D6
D7
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
K-Series devices are available with two control
interface versions: one for a parallel multiplexed
address/data interface, and one for a serial
interface. The parallel version is intended for use
with 8039/48 or 8031/51 microcontrollers from
Intel or many other manufacturers. The serial
interface can be used with other microcontrollers
or in applications where only a limited number of
port lines are available or the application does not
lend itself to a multiplexed address/data interface.
The parallel versions may also be used in the
serial mode, as explained in the data sheet pin
description.
APPLICATIONS INFORMATION
GENERAL CONSIDERATIONS
Figures 1 and 2 show basic circuit diagrams for
K-Series modem integrated circuits. K-Series products
are designed to be used in conjunction with a control
processor, a UART or RS-232 serial data interface,
and a DAA phone line interface to function as a typical
intelligent modem. The K-Series ICs interface directly
with Intel 8048 and 80C51 microprocessors for control
and status monitoring purposes. Two typical DAA
arrangements are shown: one for a split ±5 or
±12V design and one for a single 5V design. These
diagrams are for reference only and do not represent
production-ready modem designs.
C14
C13
39 pF
18 pF
Y1
11.0592
MHZ
+5V
N/C
RS232
LEVEL
CONVERTERS
CA
CB
CC
CD
CF
RTS
CTS
DSR
DTR
DCD
XTL2
R10
2.2M
XTL1
INT
DB
TXD
RXD
EXCLK
RXCLK
TXCLK
U5, U6
MC145406
CLK
XTL1
XTL2
INT
P0.0-7
P1.2
P1.3
RD
WR
RD
WR
P1.5
ALE
P3.1
ALE
CS
P1.6
P3.2
+
C9
0.1 µF
VDD
C8
22 µF
C1
390 pF
ISET
80C51
P1.0
P1.1
P3.0 P1.7 RESET
BA
BB
DA
DD
In most applications the controller will monitor the
serial data for commands from the DTE and the
received data for break signals from the far end
modem. In this way, commands to the modem are
sent over the same line as the transmitted data. In
other applications the RS-232 interface handshake
lines are used for modem control.
GND
VREF
C10
0.1 µF
R5
37.4K
C11
0.1 µF
R4
20K
-
RXA
LM 1458
C6
0.1 µF
K-SERIES
LOW
U1A
FAMILY
R7
43.2K
TXA
C7
R6
0.1 µF 20K
RESET
TXA
+5V
C12
1 µF
R4
5.1K
C2
300 pF
RXA
POWER
+
C3
1000 pF
R3
3.6K
V+
T1
MIDCOM
671-8005
R1
-
LM 1458
U1B
+
V–
T
475 1%
C5
0.47 µF
250V
C4
0.033 µF
D3, D4
4.7V
ZENER
U2
4N35
VR1
MOV
V250L20
D1
IN4004
+5V
R8
22K
K1
D2
IN914
R
R9
10K
Q1
+5
2N2222A
22K
FIGURE 1: Basic Box Modem with Dual-Supply Hybrid
Page: 25 of 31
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
DIRECT ACCESS ARRANGEMENT (DAA)
before sending it to the other leg of the
transformer. Each op-amp then supplies half the
drive signal to the transformer. The receive
amplifier (U1C) picks off its signal at the junction of
the impedance matching resistor and the
transformer. Because the bottom leg of the
transformer is being driven in one direction by U1A
and the resistor is driven in the opposite direction
at the same time by U1B, the junction of the
transformer and resistor remains relatively
constant and the receive signal is unaffected.
The telephone line interfaces show two examples of
how the “hybrid” may be implemented. The split supply
design (Figure 1) is a typical two op-amp hybrid. The
receive op-amp serves two purposes. It supplies gain
to amplify the receive signal to the proper level for the
modem’s detectors and demodulator, and it removes
the transmitted signal from the receive signal present
at the transformer. This is done by supplying a portion
of the transmitted signal to the non-inverting input of
the receive op-amp at the same amplitude as the
signal appearing at the transformer, making the
transmit signal common mode.
DESIGN CONSIDERATIONS
TERIDIAN Semiconductor's 1-chip modem
products include all basic modem functions. This
makes these devices adaptable for use in a variety
of applications, and as easy to control as
conventional digital bus peripherals. Unlike digital
logic circuitry, modem designs must properly
contend with precise frequency tolerances and
very low level analog signals, to ensure
acceptable performance. Using good analog
circuit design practices will generally result in a
sound
design.
Following
are
additional
recommendations, which should be taken into
consideration when starting new designs.
The single-supply hybrid is more complex than the
dual-supply version described above, but its use
eliminates the need for a second power supply. This
circuit (Figure 2) uses a bridged drive to allow
undistorted signals to be sent with a single 5 volt
supply. Because DTMF tones utilize a higher
amplitude than data, these signals will clip if a singleended drive approach is used. The bridged driver uses
an extra op-amp (U1A) to invert the signal coming
from the gain setting op-amp (U1B)
C1
390 pF
R4
37.4K 1%
C3
0.1 µF
8
* U1C
-
RXA
+
C4
0.0047 µF
R1
20K 1%
9
Note: Op-amp U1
must be rated for
single 5V
operation. R10 &
R11 values depend
10
R2
20K 1%
R5 3.3K
+5V
5
6
R3
475 1%
4
+
-
7
11
T1
MIDCOM
671-8005
* U1B
C6
0.1 µF
R7
20K 1%
T
C2
0.033 µF
C5
750 pF
U2
4N35
TXA
R9
20K 1%
3
-
* U1A
R13
22K
VR1
MOV
V250L20
D1
IN4004
D2
3.3V
ZENERS
R8
20K 1%
2
+5V
C10
0.47 µF
250V
R6
22.1K
R12
22K
D3
1
+
+5V
+5V
K1
VOLTAGE
REFERENCE
D4
IN914
R10*
R
R11*
C7
0.1 µF
+
R14
10K
C8
10 µF
Q1
2N2222A
HOOK
RING
FIGURE 2: Single 5V Hybrid Version
Page: 26 of 31
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
CRYSTAL OSCILLATOR
MODEM PERFORMANCE CHARACTERISTICS
The K-Series crystal oscillator requires a parallel mode
(antiresonant) crystal, which operates at 11.0592 MHz.
It is important that this frequency be maintained to
within ±0.01% accuracy.
The curves presented here define modem IC
performance under a variety of line conditions
while inducing disturbances that are typical of
those encountered during data transmission on
public service telephone lines. Test data was
taken using an AEA Electronics’ “Autotest I”
modem test set and line simulator, operating
under computer control. All tests were run fullduplex, using a Hayes SmartModem™ 2400 as
the reference modem. A 511 pseudo-random-bit
pattern was used for each data point. Noise was
C-message weighted and all signal-to-noise (S/N)
ratios reflect total power measurements similar to
the CCITT V.56 measurement specification. The
individual tests are defined as follows.
In order for a parallel mode crystal to operate correctly
and to specification, it must have a load capacitor
connected to the junction of each of the crystal and
internal inverter connections, terminated to ground.
The values of these capacitors depend primarily on the
crystal’s characteristics, and to a lesser degree on the
internal inverter circuit. The values used affect the
accuracy and start up characteristics of the oscillator.
LAYOUT CONSIDERATIONS
Good analog/digital design rules must be used to
control system noise in order to obtain highest
performance in modem designs. The more digital
circuitry present on the PC board, the more this
attention to noise control is needed. The modem
should be treated as a high impedance analog device.
A 22 µF electrolytic capacitor in parallel with a 0.22 µF
ceramic capacitor between VDD and GND is
recommended. Liberal use of ground planes and
larger traces on power and ground are also highly
favored. The ISET resistor and capacitor should be
mounted near the ISET pin, away from digital signals.
High speed digital circuits tend to generate a
significant
amount
of
EMI
(Electro-Magnetic
Interference), which must be minimized in order to
meet regulatory agency limitations. To accomplish this,
high speed digital devices should be locally bypassed,
and the telephone line interface and K-Series device
should be located close to each other near the area of
the board where the phone line connection is
accessed. To avoid problems, power supply and
ground traces should be routed separately to the
analog and digital functions on the board, and digital
signals should not be routed near low level or high
impedance analog traces. The analog and digital
grounds should only connect at one point near the KSeries device ground pin to avoid ground loops. The
K-Series modem IC’s should have both high frequency
and low frequency bypassing as close to the package
as possible.
Page: 27 of 31
BER vs. S/N
This test measures the ability of the modem to
operate over noisy lines with a minimum of datatransfer errors. Since some noise is generated in
the best of dial-up lines, the modem must operate
with the lowest S/N ratio possible. Better modem
performance is indicated by test curves that are
closest to the BER axis. A narrow spread between
curves representing the four line parameters
indicates minimal variation in performance while
operating over a range of aberrant operating
conditions. Typically, a modem will exhibit better
BER-performance test curves receiving in the low
band than in the high band.
BER vs. Receive Level
This test measures the dynamic range of the
modem. Because signal levels vary widely over
dial-up lines, the widest possible dynamic range is
desirable. The minimum Bell specification calls for
36 dB of dynamic range. S/N ratios are held
constant at the indicated values while the receive
level is lowered from a very high to very low signal
levels. The width of the “bowl” of these curves,
taken at the BER point, is the measure of dynamic
range.
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
73K224L BER vs S/N-DPSK LOW BAND
73K224L BER vs S/N-DPSK HIGH BAND
10-2
10-2
LOW BAND RECEIVE
-30 dBm
DPSK OPERATION
1200 BIT/S
HIGH BAND RECEIVE
-30 dBm
DPSK OPERATION
1200 BIT/S
10-3
10-3
BIT ERROR RATE
BIT ERROR RATE
C1, 3002, FLAT
10-4
10-4
C1, C2, FLAT
10-5
10-5
C2
10-6
10-6
4
6
8
10
12
14
16
4
6
SIGNAL TO NOISE (dB)
8
12
10
14
16
SIGNAL TO NOISE (dB)
73K224L BER vs S/N-QAM-LOW BAND
73K224L BER vs S/N-QAM-HIGH BAND
10-2
10-2
HIGH BAND RECEIVE
-30 dBm
QAM OPERATION
2400 BIT/S
LOW BAND RECEIVE
-30 dBm
QUAM OPERATION
2400 BIT/S
C1
10-3
10-3
C1
BIT ERROR RATE
BIT ERROR RATE
FLAT
FLAT
10-4
C2
10-4
3002
C2
10-5
10-5
10-6
10-6
8
10
12
14
16
18
20
8
SIGNAL TO NOISE (dB)
Page: 28 of 31
© 2005, 2008 TERIDIAN Semiconductor Corporation
10
12
14
16
18
20
SIGNAL TO NOISE (dB)
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
73K224L BER vs CARRIER OFFSET
10-2
HIGH BAND RECEIVE
-30 dBm
QAM OPERATION
2400 BIT/S
BIT ERROR RATE
10-3
10-4
3002 17 dB S/N
C2 17 dB S/N
10-5
10-6
-12
-8
-4
0
4
8
12
CARRIER OFFSET (Hz)
Page: 29 of 31
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
MECHANICAL SPECIFICATIONS
28-Pin DIP
28-Pin PLCC
0.495 (12.573)
0.075 (1.905)
0.485 (12.319)
PIN NO. 1 IDENT.
0.065 (1.651)
0.165 (4.191)
0.180 (4.572)
0.495 (12.573)
0.456 (11.650)
0.485 (12.319)
0.450 (11.430)
0.050 (1.270)
0.045 (1.140)
0.016 (0.406)
0.020 (0.508)
0.020 (0.508)
0.390 (9.906)
0.430 (10.922)
0.456 (11.650)
0.450 (11.430)
Page: 30 of 31
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224L
V.22bis, V.22, V.21, Bell 212A, 103
Single-Chip Modem
DATA SHEET
PACKAGE PIN DESIGNATIONS
(Top View)
AD1
AD2
AD3
AD4
AD5
AD6
AD7
3
1
RXA
2
VREF
XTL1
4
CLK
GND
AD0
XTL2
CAUTION: Use handling procedures necessary
for a static sensitive component.
28 27 26
RESET
ISET
5
25
6
24
7
23
8
22
RXCLK
RXD
9
21
TXD
10
20
11
19
CS
EXCLK
TXCLK
INT
TXA
RD
VDD
WR
ALE
12 13 14 15 16 17 18
28-Pin PLCC
73K224L-28IH
ORDERING INFORMATION
PART DESCRIPTION
ORDER NO.
PACKAGE MARK
73K224L 28-Pin Plastic Lead-Free Chip Carrier
73K224L-28IH/F
73K224L-28IH
73K224L 28-Pin Plastic Lead-Free Tape / Reel
73K224L-28IHR/F
73K224L-28IH
No responsibility is assumed by TERIDIAN Semiconductor Corporation for use of this product nor for any infringements of patents and
trademarks or other rights of third parties resulting from its use. No license is granted under any patents, patent rights or trademarks of
TERIDIAN Semiconductor Corporation, and the company reserves the right to make changes in specifications at any time without notice.
Accordingly, the reader is cautioned to verify that the data sheet is current before placing orders.
TERIDIAN Semiconductor Corporation, 6440 Oak Canyon Rd., Irvine, CA 92618-5201, (714) 508-8800, FAX: (714) 508-8877,
http://www.teridiansemi.com
Protected by the following Patents (4,777,453) (4,789,995) (4,847,868) (4,866,739)
© 2005, 2008 TERIDIAN Semiconductor Corporation
Page: 31 of 31
© 2005, 2008 TERIDIAN Semiconductor Corporation
06/20/08 - rev. 7.1
Rev 7.1